DGIST announced that the DGIST-ETH Micro Robot Research Center (DEMRC) entered The 47th International Exhibition of Inventions Geneva with 4 inventions and won 6 awards including 3 golds, 1 silver, Special Award of Geneva State Government, and Special Award from the Taiwan Invention Association.

Scientists are excited about diamonds - not the types that adorn jewelry, but the microscopic variety that are less than the width of a human hair. These so-called "nanodiamonds" are made up almost entirely of carbon. But by introducing other elements into the nanodiamond's crystal lattice - a method known as "doping" - researchers could produce traits useful in medical research, computation and

Collaboration between Novo Nordisk and Professor Kurt Gothelf's laboratory at Aarhus University yields novel method to engineer large multi-antibody-like nanostructures using DNA nanotechnology. The results demonstrate the potential for assembly of multiple proteins and also other materials to enhance properties of traditional therapies.

A team of researchers at the Centre de Nanosciences et de Nanotechnologies (C2N, CNRS/Univ. Paris-Saclay) has experimentally achieved the coherent propagation of electrons in circuits over macroscopic distances through a novel nano-engineering strategy.

For emerging wearable tech to advance, it needs improved power sources. Now researchers from Michigan State University have provided a potential solution via crumpled carbon nanotube forests, or CNT forests.

In a paper to be published in the forthcoming issue in NANO, a team of researchers from Yunnan University, China, have reviewed the recent research on preparation methods and structures of Silicon nanowires (SiNWs) and Germanium quantum dots (GeQDs) and their composites, in order to explore their novel physical properties and improve on their optoelectronic properties.

In a paper to be published in the forthcoming issue in NANO, a team of researchers have reviewed the methods of synthesizing copper nanowires (Cu NWs) and techniques to improve its oxidation resistance. With excellent electrical, optical, and thermal properties, Cu NWs are an attractive alternative to indium tin oxide (ITO) as a traditional electrode material.

A research cooperation between the University of Hamburg and DESY has developed a process suitable for 3D printing that can be used to produce transparent and mechanically flexible electronic circuits. The electronics consists of a mesh of silver nanowires that can be printed in suspension and embedded in various flexible and transparent plastics (polymers). This technology can enable new